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Review of a Modern Technical Solution in Continuous Miner Machine Technology

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In this paper is presented the overview of Continuous Miners available on the market. Numbers describe machines from 1 to 41 and parameters obtained from manufacturers catalogues are presented on diagrams. The statistical analysis of some of parameters are carried out by linear approximation to show factors determining, for example, the total power of installed engines to the power of the cutting head drive, the total power of installed engines to the total mass, cutting height to the cutter diameter and cutting height to the cutting width, etc. Thin layers of coal less than 1.2 m thick and remnants of seams that require work on a system of boards and columns constitute an increasing share of coal deposits. Geometric restrictions, in this case, are closely correlated with the construction form of the machine and they must have high performance with limited geometric dimensions. This type is called “Continuous Miner”, and is closely correlated with those restrictions. The paper reviews the technical solutions used in these machines, which are currently used around the world. Particular attention is paid to the new concept of the cutting drum drive system, in which permanent magnet motors are proposed. Placing them in a cutting drum improves the efficiency of the mining process and the possibility of modular configuration depending on the required working conditions.
Rocznik
Strony
272--282
Opis fizyczny
Bibliogr. 30 poz., rys., tab.
Twórcy
  • Silesian University of Technology, Poland
  • Silesian University of Technology, Poland
autor
  • Silesian University of Technology, Poland
autor
  • Silesian University of Technology, Poland
Bibliografia
  • 1. ANON, Middlebult mines sires new Joy miner, ANON, Coal, 99(10), 1994, pp 74,76-77, International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts, Volume 32, Issue 3, April 1995, Page A121, ISSN 0148-9062
  • 2. C. Balci, Correlation of rock cutting tests with field performance of a TBM in a highly fractured rock formation: a case study in Kozyatagi-Kadikoy Metro Tunnel, Turkey Tunn. Undergr. Sp. Technol., 24 (2009), pp. 423-435
  • 3. Jon C. Blackstock, John A. Baird, Jr., Ian T. Carr, Apparatus for mining a mineral seam, patent: US 5964507 A 1999
  • 4. Brochures Available at: http://www.miningandconstruction.sandvik.com/(Accessed: 27 May 2017)
  • 5. Brochures Available at: http://www.joy.com/ (Accessed: 27 May 2017)
  • 6. Brochures Available at: https://mining.cat.com/continuous-miners/(Accessed: 27 May 2017)
  • 7. Brochures Available at: http://www.eickhoff.co.za/ (Accessed: 27 May 2017)
  • 8. Brochures Available at: https://gefairchild.com (Accessed: 27 May 2017)
  • 9. Peter Darling, SME Mining Engineering Handbook, Third Edition, 2011
  • 10. M.W.J. Graham, Developments and trends in miners/bolters, Mining Technology, 77(887), 1995, pp. 213-217, International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts, Volume 33, Issue 1, January 1996, Pages A31-A32, ISSN 0148-9062
  • 11. J. Gilliland, F. Kendrick, Mining machine with cutter drum having internal drive motors. patent: US 4047763, 1977
  • 12. S. Hui, J. Junqing, Research on the system configuration and energy control strategy for parallel hydraulic hybrid loader. Journal Automation in Construction, vol. 19 (2010)., no. 2, pp. 213-220
  • 13. K.G. Hurt, K.M. MacAndrew, C.J. Morris, Boom road header cutting vibration: measurement and prediction, Proc CARE 88 (Conference of Applied Rock Engineering), Newcastle, 6-8 January 1988P89-97. Publ London: IMM, 1988, International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts, Volume 25, Issue 5, October 1988, Page 236, ISSN 0148-9062,
  • 14. S. Kenneth, Motorized multiple drums for mining machine, patent: US 3290096, 1966
  • 15. M. LeBegue, J. Blackstock, H. Woodford II, Clarence, L. Sanders, Drum assembly for a Continuous Miner, patent: US 5143423 A, 1992
  • 16. T. Lin, Q. Wang, B. Hu, W. Gong, Development of hybrid powered hydraulic construction machinery. Journal Automation in Construction, vol. 19 (2010). no. 1, pp. 11-19
  • 17. T. Minav, A. Virtanen, L. Laurila, J. Pyrhönen, Storage of energy recovered from an industrial forklift. Journal Automation in Construction, vol. 22 (2012), p. 506-515,
  • 18. McFeat-Smith, Considerations for mechanised excavation of rock tunnels, I Proc 6th Australian Tunnelling Conference, Melbourne, March 1987V1, pp. 149-157. Publ Parkville: AusIMM, 1987, International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts, Volume 26, Issue 5, September 1989, Page 254, ISSN 0148-9062
  • 19. Mężyk, W. Klein, M. Pawlak, J. Kania, K. Basiura, System and method of vibration reduction in drilling or digging machines (in polish), patent: PL228265B1, 2018
  • 20. A. Mężyk, J. Kania, M. Pawlak, W. Klein, K. Basiura, Digging unit of a tunnel digging machine with linear digging (in polish), patent: PL225112B1, 2017
  • 21. A. Mężyk, J. Kania, M. Pawlak, W. Klein, D. Gasiorek, K. Basiura, Tunnel mining machine with linear mining (in polish), patent: PL224769B1, 2017
  • 22. A. Mężyk, M. Pawlak, J. Kania, W. Klein, A new concept of vibration-control system in continuous miner machine, Adv. Mech. Eng. 2019, vol. 11 iss.1, pp.1-14
  • 23. A. Mężyk, W. Klein, M. Pawlak, J. Kania, The identification of the vibration control system parameters designed for continuous miner machines, Int. J. Non-Linear Mech. 2017 vol.91, p.181-188
  • 24. A. Mężyk, W. Klein, M. Fice, M. Pawlak, K. Basiura, Mechatronic model of continuous miner cutting drum driveline, Mechatronics 2016 vol.37, pp.12-20
  • 25. F. Pawel, Apparatus for performing earthworks, patent: US 720841 A, 1903
  • 26. Patents Available at: http://worldwide.espacenet.com/ (Accessed: 27 May 2017)
  • 27. Patents available at: http://www.google.com/patents/ (Accessed: 27 May 2017)
  • 28. D.Y. Wang, C. Guan, S.X. Pan, M.J. Zhang, X. Lin, Performance analysis of hydraulic excavator power train hybridisation, Automation in Construction 18 (3) (2009) pp. 249-257
  • 29. Q. Xiao, Q.F. Wang, Y.T. Zhang, Control strategies of power system in hybrid hydraulic excavator, Automation in Construction 17 (4) (2008) pp. 361-367.
  • 30. J. Zimmerman, G. Lowman, Cutter head containing its motors and gearcase, patent: US 8235470, 2012
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-42678c8c-bff5-43f1-9433-79e24c5e46a1
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